Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019829 (Hodgkin's disease)
 30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Immunohistochemical analysis of the apoptosis-effector protease CPP32 (Caspase-3) in normal lymph nodes, tonsils, and nodes affected with reactive hyperplasia (n = 22) showed strong immunoreactivity in the apoptosis-prone germinal center B-lymphocytes of secondary follicles, but little or no reactivity in the surrounding long-lived mantle zone lymphocytes. Immunoblot analysis of fluorescence-activated cell sorted germinal center and mantle zone B cells supported the immunohistochemical results. In 22 of 27 (81%) follicular small cleaved cell non-Hodgkin's B-cell lymphomas, the CPP32-immunopositive germinal center lymphocytes were replaced by CPP32-negative tumor cells. In contrast, the large cell component of follicular mixed cells (FMs) and follicular large cell lymphomas (FLCLs) was strongly CPP32 immunopositive in 12 of 17 (71%) and in 8 of 14 (57%) cases, respectively, whereas the residual small-cleaved cells were poorly stained for CPP32 in all FLCLs and in 12 of 17 (71%) FMs, suggesting that an upregulation of CPP32 immunoreactivity occurred during progression. Similarly, cytosolic immunostaining for CPP32 was present in 10 of 12 (83%) diffuse large cell lymphomas (DLCLs) and 2 of 3 diffuse mixed B-cell lymphomas (DMs). Immunopositivity for CPP32 was also found in the majority of other types of non-Hodgkin's lymphomas studied. Plasmacytomas were CPP32 immunonegative in 4 of 12 (33%) cases, in contrast to normal plasma cells, which uniformly contained intense CPP32 immunoreactivity, implying downregulation of CPP32 in a subset of these malignancies. All 12 peripheral blood B-cell chronic lymphocyte leukemia specimens examined were CPP32 immunopositive, whereas 3 of 3 small lymphocytic lymphomas were CPP32 negative, suggesting that CPP32 expression may vary depending on the tissue compartment in which these neoplastic B cells reside. The results show dynamic regulation of CPP32 expression in normal and malignant lymphocytes.
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PMID:Immunolocalization of the ICE/Ced-3-family protease, CPP32 (Caspase-3), in non-Hodgkin's lymphomas, chronic lymphocytic leukemias, and reactive lymph nodes. 916 Jun 89

Ich-1/Nedd2 and CPP32/YAMA are cysteine proteases related to interleukin 1-beta-converting enzyme (ICE), which act as apoptosis effectors. Both molecules are expressed in T- and B-cell lines. The authors investigated their in vivo cellular distribution in normal and neoplastic human lymphoid tissues. Sixty-eight representative non-Hodgkin's lymphomas (NHL) and Hodgkin's disease (HD) samples, normal lymphoid organs, and nonlymphoid tumors were analyzed by immunohistochemistry (IHC). CPP32 expression in benign tissues was restricted to germinal center B cells, plasma cells, and a few interfollicular immunoblasts. All follicular NHLs and most diffuse large cell NHLs were CPP32 positive. Among T-cell NHLs, CPP32 expression was mainly observed in anaplastic large cell NHLs, whereas the other subtypes were less frequently positive. In contrast, lymphoid organs displayed only weak Ich1-L expression, located in sinusal histiocytes and thymic epithelial cells. Lymphomas were Ich1-L negative, except for T-cell-rich B-cell NHLs, and about half of the HD samples, in which Reed-Sternberg cells (RSC) were usually Ich1-L positive/CPP32 negative. Extralymphoid Ich1-L reactivity was found in particular organs like the kidney and various tumors. Western blot analysis confirmed the specificity of immunostaining. Neither CPP32 nor Ich1-L expression were correlated with intratumoral DNA fragmentation, as determined by the TUNEL assay. Altogether, these results indicate that CPP32 is preferentially expressed in germinal centers and thus could be involved in B-cell maturation. The differential expression of CPP32 and Ich1-L suggests that cysteine proteases differ in substrate specificities and carry out functions unrelated to apoptosis.
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PMID:Cysteine protease CPP32, but not Ich1-L, is expressed in germinal center B cells and their neoplastic counterparts. 926 27

The Caenorhabditis elegans cell death gene, Ced-3, encodes a protein homologous to mammalian interleukin-1beta-converting enzyme (ICE), a cysteine protease implicated in programmed cell death (PCD). CPP32, also known as Yama, apopain, and Caspase-3, is a member of this family, has substrate specificities similar to Ced-3, and has been shown to have an active role in PCD. Evidence suggests that these proteases act downstream of inhibitors of PCD such as Bcl-2 and Bcl-x(L), which are frequently expressed in Reed-Sternberg (RS) cells of Hodgkin's disease (HD). To date there have been no studies examining the role of the ICE/Ced-3 family of proteins, in particular CPP32, in HD. We examined 24 cases of HD with a classical immunophenotype and 6 cases of nodular lymphocyte predominant HD (NLPHD) for the expression of CPP32 in the RS cells and lymphohistiocytic (L&H) cells as detected by immunohistochemistry. Twenty two of 24 cases (92%) of HD expressed the protein in the RS cells, whereas the L&H cells in all 6 cases of NLPHD lacked expression of CPP32. These results provide further evidence that NLPHD is a phenotypically different disease distinct from classical forms of HD. The differential expression of the cell death protein CPP32 may be an important factor contributing to the apparently different clinical behaviour of NLPHD in contrast to classical HD. The lack of expression of CPP32 in NLPHD shares similarities with low-grade B-cell non-Hodgkin's lymphomas and may explain their common clinical course. Further studies are required to elucidate the significance of CPP32 in HD.
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PMID:Immunohistochemical analysis of interleukin-1beta-converting enzyme/Ced-3 family protease, CPP32/Yama/Caspase-3, in Hodgkin's disease. 931 Apr 97

Apoptosis (programmed cell death) serves an important role in the normal morphogenesis, immunoregulation, and homeostatic mechanisms in both normal and neoplastic cells. Caspase-3/CPP32, a member of the ICE/Ced-3-family of cysteine proteases, is an important downstream mediator of several complex proteolytic cascades that result in apoptosis in both hematopoietic and nonhematopoietic cells. Previous studies have demonstrated that caspase-3 is commonly expressed in classical Hodgkin's disease (CHD); however, the biological significance of its expression in Hodgkin's disease is unknown. In this report, the expression of caspase-3 in nodular lymphocyte predominance Hodgkin's disease (NLPHD) was evaluated by immunohistochemistry; in addition, we investigated the role of caspase-3 in CD95 (Fas)-mediated apoptosis in three CHD cell lines. Formalin-fixed, paraffin-embedded tissue sections from 11 cases of NLPHD were immunostained for caspase-3 using a polyclonal rabbit antibody that detects both the 32-kd zymogen and the 20-kd active subunit of the caspase-3 protease. Only 1/11 cases of NLPHD demonstrated caspase-3 immunopositivity in lymphocytic/histiocytic cells. Caspase-3 expression was also evaluated in three CHD cell lines, HS445, L428, and KMH2. Whereas caspase-3 expression was detected in HS445 and L428 cell lines, no expression was found in KMH2 cells by immunohistochemical staining. Treatment of HS445 and L428 cell lines for 72 hours with agonistic CD95 monoclonal antibody induced marked apoptosis that was significantly inhibited by pretreatment with the caspase-3 inhibitor, DEVD-FMK, as determined by terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling assay and flow cytometric analysis of 7-amino-actinomycin D staining. In addition, a significant increase in caspase-3 activity as determined by an enzyme colorimetric assay was detected in HS445 and L428 cells after 48 hours of CD95 stimulation. In marked contrast, treatment of caspase-3-deficient KMH2 cells with anti-CD95 mAb did not demonstrate an increase in caspase-3 activity or induce apoptosis. These data demonstrate caspase-3 is important for CD95-mediated apoptosis in CHD cell lines. In addition, the majority of NLPHD cases examined in this study failed to express detectable levels of caspase-3, suggesting these tumor cells may be resistant to apoptotic stimuli dependent on caspase-3 activity. Furthermore, these data suggest the differential expression of caspase-3 noted between NLPHD and CHD may provide additional evidence that each is a unique disease entity.
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PMID:Characterization of the interleukin-1beta-converting enzyme/ced-3-family protease, caspase-3/CPP32, in Hodgkin's disease: lack of caspase-3 expression in nodular lymphocyte predominance Hodgkin's disease. 1032 97

We investigated whether cell-permeable, synthetic ceramide (C6 ceramide) could induce apoptosis in Fas-resistant Hodgkin's disease (HD)-derived cell lines. Despite strongly expressing the Fas-receptor, two of three HD-derived cell lines were resistant to Fas-mediated apoptosis. This resistance to Fas could not be attributed to differential Fas isoform generation patterns between the Fas-resistant and the Fas-sensitive cell lines. The Fas-resistant cell lines did not demonstrate the presence of Fas exon 8 deletion. Bcl-2 and BclxL levels were comparable between the Fas-resistant and the Fas-sensitive cell lines. C6 ceramide could induce apoptosis in both Fas-resistant cell lines and this was associated with a decrease in BclxL level. Caspase-1, caspase-3, or pan-caspase inhibitors could not prevent ceramide-induced apoptosis. Furthur, ceramide treatment did not lead to cleavage of caspase 3 or poly(ADP-ribose) polymerase, but caused a loss in mitochondrial transmembrane potential which could not be prevented by caspase inhibitors. Thus, we conclude that ceramide-induced apoptosis in Fas-resistant HD cell lines is caspase independent.
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PMID:Ceramide-induced apoptosis in fas-resistant Hodgkin's disease cell lines is caspase independent. 1066 30

The experiments were designed to study correlation between frequency of apoptosis of Reed-Sternberg/Hodgkin (R-S/H) cells, EBV infection of these cells, expression of the key proteins involved in regulation of apoptosis and cell cycle in R-S/H cells, the patients' pretreatment markers and the clinical outcome. One hundred and ten Hodgkin's disease (HD) patients were studies, of which 69 obtained complete remission (CR) after first-line treatment and 41 did not respond. The time of follow-up was from 18 to 242, median 69.7, months. Apoptosis was evaluated by TUNEL technique (TdT-mediated dUTP nick end labeling) and the presence of EBV-latent membrane protein 1 as well as expression of Bcl-2, tumor suppressor p53, p21WAF1, MDM-2, Rb1, PCNA, p27KIP1 and caspase-3, was detected immunocytochemically on paraffin-embedded lymph node specimens obtained at diagnosis. Positive TUNEL reaction was found in 43 patients with apoptotic index (AI) in this group varying between 10% and 60%. In the remaining 57 patients AI of R-S/H cells was below 10%. In 62 patients the cells surrounding R-S/H cells were also TUNEL-positive; their frequency was variable. The expression of LMP1 protein on R-S/H cells was found in 38 patients, without any correlation with the presence or frequency of apoptosis. No significant difference was seen between the AI and both clinical stage and histological type of the disease. However, the mean AI in non-responding patients was significantly higher than in CR group (p=0.015); the high frequency of apoptosis was also negatively correlated with the progression free survival time (p=0.031) and the overall survival (p=0.042). The expression of PCNA, p21WAF1, p53 protein and caspase-3 also showed positive correlation with frequency of apoptosis (p=0.011, p=0.036, and p=0.001, respectively). On the other hand, no statistically confirmed correlation was found between AI and expression of bcl-2, MDM-2, Rb1, and p27KIP1 on R-S/H cells. These data provide evidence that tumor cells in HD undergo spontaneous apoptosis regardless of EBV infection. High pretreatment AI correlates with poor response to the treatment, and may be considered as a potential negative prognostic factor in HD.
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PMID:Spontaneous apoptosis of Reed-Sternberg and Hodgkin cells; clinical and pathological implications in patients with Hodgkin's disease. 1093 5

Lymphoma cells often display in vitro resistance to FAS-induced apoptosis, in which caspases act as crucial cell death effectors. Following FAS stimulation, caspase-8 activates caspase-3, which in turn activates the caspase-activated DNAse (CAD) by proteolysis of its inhibitor (ICAD). To investigate the mechanism of FAS resistance, the expression of caspase-8 was analysed by immunohistochemistry, together with that of the substrates caspase-3 and ICAD, in 52 representative samples from non Hodgkin's lymphoma (NHL), 12 from Hodgkin's disease (HD), and eight benign lymphoid tissues. In benign tissues, caspase-8 was co-expressed with caspase-3 in the cytoplasm in germinal centre (GC) cells and was co-expressed with ICAD in the nuclei of the mantle and marginal zone cells. ICAD expression was weak or absent in GC cells. Cytoplasmic staining for both caspase-8 and caspase-3 was present in 11/12 cases of diffuse large cell B-NHL. Caspase-8 positivity was nuclear and cytoplasmic in 9/9 follicular NHLs, in 5/5 mantle cell NHLs and in 6/6 marginal zone NHLs. Five out of six peripheral T-cell NHLs expressed cytoplasmic caspase-8. Ten out of the 12 HD cases lacked significant cytoplasmic staining for caspase-3 and caspase-8 in the majority of Reed-Sternberg cells. All lymphoma cases exhibited predominant nuclear ICAD positivity. Subcellular fractionation analysis of three lymphoma samples and normal mantle zone cells confirmed that ICAD and caspase-8 were at least partly localized in the nucleus. These results show that the profile of caspase-8 expression is correlated with histological lymphoma subtypes; that caspase-8 is co-expressed with caspase-3 in GC cells and their neoplastic counterparts; that ICAD has an immunohistochemical nuclear localization in vivo; and that caspase-8 and ICAD can be co-expressed in the nuclei of mantle zone and marginal zone cells; their unexpected nuclear localization allows a reappraisal of the biochemical cascade of caspase activation.
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PMID:Frequent nuclear localization of ICAD and cytoplasmic co-expression of caspase-8 and caspase-3 in human lymphomas. 1100 95

Although the neoplastic cells of classical Hodgkin's disease (CHD) demonstrate high levels of constitutively active nuclear NF-kappaB, the precise physiologic and clinical significance of NF-kappaB expression is currently undefined. Expression of active NF-kappaB p65(Rel A) was evaluated in patient samples of CHD and nodular lymphocyte predominance Hodgkin's disease. The action of the chemical NF-kappaB inhibitors gliotoxin and MG132 and the effect of NF-kappaB inhibition utilizing an adenovirus vector carrying a dominant-negative IkappaBalpha mutant (Ad5IkappaB) were then demonstrated in CHD cell lines (L428, KMH2, and HS445). Hodgkin and Reed-Sternberg (HRS) cells from all patient and cell line specimens showed strong immunopositivity for active p65(Rel A). Expression was also seen in lymphocytic/histiocytic cells from all cases of nodular lymphocyte predominance Hodgkin's disease. After chemical NF-kappaB inhibition, p65(Rel A) was significantly reduced in nuclear extracts from cultured HRS cells as revealed by electrophoretic mobility shift assays. Furthermore, chemical NF-kappaB inhibition resulted in time- and concentration-dependent apoptosis in HRS cells. With the exception of MG132-induced apoptosis in HS445, apoptosis by chemical NF-kappaB inhibition was not significantly altered by preincubation with various caspase inhibitors (z-DQMD-FMK, z-DEVD-FMK, z-VAD-FMK, z-VEID-FMK, and z-IETD-FMK). Regardless of the chemical inhibitor used, no significant change in caspase-3 functional activity was found in CHD cell lines. HRS cells infected with Ad5IkappaB also showed a marked increase in spontaneous apoptosis compared with wild type adenovirus-infected and control cells. Overall, the inhibition of active NF-kappaB in HRS cells resulting in spontaneous caspase-independent apoptosis demonstrates a critical role for NF-kappaB in HRS cell survival and resistance to apoptosis.
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PMID:Characterization of NF-kappaB expression in Hodgkin's disease: inhibition of constitutively expressed NF-kappaB results in spontaneous caspase-independent apoptosis in Hodgkin and Reed-Sternberg cells. 1130 46

One of the major characteristics of anaplastic large cell lymphomas (ALCL) is the expression of the Ki-1/CD30 antigen. While the receptor mediates NF-kappaB-activation in Hodgkin's lymphomas, some data suggest the CD30-mediated apoptosis of other CD30-expressing cells. We were able to demonstrate that activation of CD30 leads to different effects regarding cell proliferation of the ALCL-derived cell lines Karpas 299 and JB6. Western and Northern blotting analysis revealed that CD30-induced growth inhibition of Karpas 299 cells correlated with a strong upregulation of the cell cycle inhibitor p21(CIP1/WAF1). We found a non activating point mutation at codon 273 in exon 8 of the p53 gene in Karpas 299 cells which indicates an p53-independent mechanism for induced p21 expression. Abundant p21 protein expression resulted in hypophosphorylation of the retinoblastoma protein (Rb) and inhibition of the proliferating cell nuclear antigen (PCNA). CD30-stimulated cells showed no indications of apoptotic cell death, like genomic DNA fragmentation or cleavage of the caspase-3 target protein poly (ADP-ribose) polymerase (PARP). Our results indicate that CD30 is able to mediate an p21-associated cell cycle arrest in ALCL with possible implications for prognosis and clinical treatment.
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PMID:CD30-mediated cell cycle arrest associated with induced expression of p21(CIP1/WAF1) in the anaplastic large cell lymphoma cell line Karpas 299. 1131 91

Rituximab is a chimeric monoclonal antibody directed at CD20 with significant activity in non-Hodgkin lymphoma (NHL) and chronic lymphocytic leukemia (CLL). A variety of pathways of tumor cytotoxicity different from cytotoxic chemotherapy have been proposed for this therapeutic antibody including antibody-dependent cellular cytotoxicity and complement-mediated cell lysis. This report describes that a proportion of patients with CLL receiving rituximab treatment have in vivo activation of caspase-9, caspase-3, and poly(ADP-ribose) polymerase (PARP) cleavage in blood leukemia cells immediately following infusion of rituximab. This suggests that apoptosis using a pathway similar to fludarabine and other chemotherapeutic agents is intricately involved in the blood elimination of tumor cells after rituximab treatment. Patients having caspase-3 activation and PARP cleavage in vivo had a significantly lower blood leukemia cell count after treatment as compared to those without caspase activation. Significant down-modulation of the antiapoptotic proteins XIAP and Mcl-1 was also noted, possibly explaining in part how rituximab sensitizes CLL cells to the cytotoxic effect of chemotherapy in vivo. These findings suggest that the therapeutic benefit of antibody-based therapy in vivo for patients with CLL depends in part on induction of apoptosis and provides another area of focus for studying mechanisms of antibody-resistance in neoplastic cells.
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PMID:The mechanism of tumor cell clearance by rituximab in vivo in patients with B-cell chronic lymphocytic leukemia: evidence of caspase activation and apoptosis induction. 1180 10


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